In this study, we examined the physiochemical properties of nasoenteral feeding tubes made from two different types of polymer: silicone materials and polyurethane. The internal surfaces of the nasoenteral feeding tubes were analyzed for their hydrophobicity, roughness, microtopography, rupture-tension and ability to stretch. We also studied the adhesion of an isolated, multi-drug resistant strain of S. aureus to these polymers. The polyurethane nasoenteral tube, which was classified as hydrophilic, was more resistant to rupture-tension and stretching tests than the silicone tube, which was classified as hydrophobic. Additionally, the polyurethane tube had a rougher surface than the silicone tube. Approximately 1.0 log CFU.cm-2 of S. aureus...
Prosthetic and orthotic parts, such as prosthetic socket and inner sides of orthoses, are often in c...
The competing mechanisms that regulate adhesion of bacteria to surfaces and subsequent biofilm forma...
Bacterial initial adhesion to inert surfaces in aquatic environments is highly dependent on the surf...
In this study, we examined the physiochemical properties of nasoenteral feeding tubes made from two ...
The infection risk of biomaterials implants varies between different materials and is determined by ...
PubMed ID: 20455404The surface properties of bacteria play an important role on adhesion to the biom...
Initial bacterial adhesion to soft or hard surfaces in the human body and emergent properties leadin...
The cell surface hydrophobicity and adhesion to abiotic and cellular surfaces was tested in five cli...
Despite lacking visual, auditory, and olfactory perception, bacteria sense and attach to surfaces. M...
Background. Shunt infections are one of the major causes of mortality and morbidity of patients with...
Most bacterial strains adhere poorly to poly(ethylene oxide) (PEO)-brush coatings, with the exceptio...
The influence of mechanical stiffness of biomaterials on bacterial adhesion is only sparsely studied...
Physico-chemical cell surface properties of 23 coagulase-negative staphylococcal strains, including ...
International audienceUnderstanding the mechanism of the bacterial cell adhesion to solid surfaces i...
Prosthetic and orthotic parts, such as prosthetic socket and inner sides of orthoses, are often in c...
The competing mechanisms that regulate adhesion of bacteria to surfaces and subsequent biofilm forma...
Bacterial initial adhesion to inert surfaces in aquatic environments is highly dependent on the surf...
In this study, we examined the physiochemical properties of nasoenteral feeding tubes made from two ...
The infection risk of biomaterials implants varies between different materials and is determined by ...
PubMed ID: 20455404The surface properties of bacteria play an important role on adhesion to the biom...
Initial bacterial adhesion to soft or hard surfaces in the human body and emergent properties leadin...
The cell surface hydrophobicity and adhesion to abiotic and cellular surfaces was tested in five cli...
Despite lacking visual, auditory, and olfactory perception, bacteria sense and attach to surfaces. M...
Background. Shunt infections are one of the major causes of mortality and morbidity of patients with...
Most bacterial strains adhere poorly to poly(ethylene oxide) (PEO)-brush coatings, with the exceptio...
The influence of mechanical stiffness of biomaterials on bacterial adhesion is only sparsely studied...
Physico-chemical cell surface properties of 23 coagulase-negative staphylococcal strains, including ...
International audienceUnderstanding the mechanism of the bacterial cell adhesion to solid surfaces i...
Prosthetic and orthotic parts, such as prosthetic socket and inner sides of orthoses, are often in c...
The competing mechanisms that regulate adhesion of bacteria to surfaces and subsequent biofilm forma...
Bacterial initial adhesion to inert surfaces in aquatic environments is highly dependent on the surf...